Method of preventing of delaying the onset and progression of Alzheimer&#39;s disease and related disorders

ABSTRACT

The present invention relates, in general, to a method of preventing or delaying the onset of Alzheimer&#39;s disease and related neurodegenerative disorders. The invention also relates to a method of treating Alzheimer&#39;s disease and related neurodegenerative disorders so as to ameliorate the further progress of symptoms. The methods involve the administration of a non-steroidal anti-inflammatory agent and/or a histamine H2 receptor blocking agent. According to indication, the present method can be applied to individuals who are currently asymptomatic but at risk of developing Alzheimer&#39;s disease, to individuals who have mild cognitive symptoms that may either denote an incipient prodrome of Alzheimer&#39;s disease or represent early symptoms (prodromal stage), or to individuals who have a clinical diagnosis of Alzheimer&#39;s disease.

This is a continuation of application Ser. No. 08/843,217, filed Apr. 14, 1997, now U.S. Pat. No. 08/228,019, which is a Continuation-In-Part of application Ser. No. 08/228,019, filed Apr. 15, 1994, now U.S. Pat. No. 5,643,960.

FIELD OF THE INVENTION

The present invention relates, in general, to a method of preventing or delaying the onset and progression of Alzheimer's disease and related neurodegenerative disorders. The method involves the administration to individuals at risk of developing the disease a non-steroidal anti-inflammatory agent and/or a histamine H2 receptor blocking agent. The invention also relates to a method of treating Alzheimer's disease that involves the use of such agents.

BACKGROUND

Alzheimer's disease is a progressive neurocognitive disorder which, without preventive intervention, will affect 10% of the developed world's population (Hagnell et al, Neuropsychobiology 7:201 (1981); Katzman et al, Ann. Neurol. 25:317 (1989)). Susceptibility to the disease is strongly influenced by genes. Two forms of this disease have been attributed to mutations on chromosomes 14 and 21 that act as dominant genetic traits (Hardy, Nature Genet. 4:233 (1992), (Schellenberg et al, Science 258:668 (1992), St. George-Hyslop et al, Nature Genet. 2:330 (1992), Van Broeckhoven et al, Nature Genet. 2:335 (1992)). At least two additional forms of Alzheimer's disease are presumed to be provoked by mutations or polymorphisms located elsewhere in the genome (Pericak-Vance et al, Am. J. Hum. Genet. 48:1034 (1991); Schellenberg et al, Science 241:1507 (1988); Roses et al, Current Neurology 14, C. V. Mosby, Chicago (1994)). One such polymorphic locus on chromosome 19, APOE which encodes the lipid transport protein apolipoprotein E, strongly influences the risk of Alzheimer's disease (Corder et al, Science 261:921 (1993)) and its timing of expression (Corder et al, Nature Genet. (1994)). New genetic marker loci on chromosome 12 or elsewhere are believed to bear similar influence (Pericak-Vance et al, Neurobiology of Aging, Keystone Symposium (1997)).

Although genetic influences predominate in determining which individuals are at risk of developing Alzheimer's disease, it is clear from twin studies that environmental factors are also important (Nee et al, Neurology 37:359 (1987)); Gatz et al, J. Geront. Medical Sciences 52AM117-M125 (1997)). It is believed that such environmental factors, possibly including pharmacologic exposures, may influence the risk of Alzheimer's disease at a given age by accelerating or retarding the unfolding of the disease process (Breitner et al, Epidemiologic Reviews 17:39 (1995)). This explanation is supported by recent evidence which shows that anatomic and metabolic markers of incipient Alzheimer's disease are apparent at least a decade prior to the appearance of clinical symptoms (Ohm et al, Neuroscience 69:209 (1995); Ohm et al, Neuroscience 66:583 (1995); Reiman et al, N. Eng. J. Med. 334:752 (1996)). Non-demented fraternal twin research subjects who have the pathogenic ε4 allele at APOE also show mild cognitive deficit when compared with their co-twins who lack the ε4 allele, and pooled subjects with ε4 show mild cognitive deficits when compared with age-matched subjects from the same cohort (Reed et al, Arch. Neurol. 51:1189 (1994)). Thus, there is increasing agreement that, whatever its causes, the pathogenetic process of Alzheimer's disease includes an extended latent phase, a briefer prodromal phase (mild symptoms not sufficient for clinical diagnosis), and the clinically recognizable symptomatic phase of Alzheimer's disease proper (Plassman et al, Neurology 47:317 (1996)).

The symptoms of Alzheimer's disease appear typically between ages 65 and 90 (Breteler et al, Epidemiol. Rev. 14:59 (1992)). Symptoms include deterioration of cognition, memory and language. An agent which retards the progression of the latent or prodromal phase of Alzheimer's disease should therefore delay the appearance of symptoms (onset). Since later onset implies briefer and less severe symptoms, if any, before death (Breitner, Ann. Intern. Med. 115:601 (1991)), the identification of factors that retard the pathogenetic process and thus delay onset is important. In like manner, an agent that retards the progression of symptoms in clinically diagnosed Alzheimer's disease will also result in reduced disability and, possibly, extended life span. Prior to the present invention, no such agents were securely known, but prior use of glucocorticoids was shown in an exploratory study of twins to be associated with a delay in expression of the disease (Breitner et al, Neurology 44:227 (1994)). A particular method of case-control comparisons in affected twin pairs and other populations at high risk of Alzheimer's disease (Breitner et al, Am. J. Epidemiol. 131:246 (1991)) has resulted in the present invention which provides a novel and highly effective method of preventing Alzheimer's disease or delaying the onset or progression of its symptoms.

SUMMARY OF THE INVENTION

The present invention relates, in one embodiment, to a method of preventing or delaying onset of the symptoms of Alzheimer's disease and related neurodegenerative disorders. These symptoms may be either mild (prodromal) or moderate to severe (clinically diagnosable Alzheimer's disease) in degree. The method comprises administering to an individual at risk of developing the disease a nonsteroidal anti-inflammatory agent and/or a histamine H2 receptor blocking agent in an amount-sufficient to effect the prevention or delay.

The present invention relates, in a further embodiment, to a method of treating the symptoms of (or preventing the progression of) Alzheimer's disease, or related neurodegenerative disorder. The symptoms may be either mild in degree (at the cusp between the prodromal and obviously symptomatic stages of the disease) or moderate to severe (clinically diagnosable Alzheimer's disease). The method comprises administering to an individual displaying such symptoms an amount of a histamine H2 receptor blocking agent, alone or in combination with a non-steroidal anti-inflammatory agent, sufficient to effect that treatment (eg prevent or retard symptom progression).

The invention relates, in yet another embodiment, to a composition comprising a histamine H2 receptor blocking agent and a nonsteroidal anti-inflammatory agent.

Advantages of the invention will be clear from the description that follows.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1. Disease-free survival in subjects categorized by exposure to nonsteroidal anti-inflammatory drugs (NSAIDs) or histamine H2 blocking drugs: FIG. 1A. Effect with NSAIDS. Twenty-one members of sibships with high prevalence of Alzheimer's disease were exposed to NSAIDs for ≧1 month; 110 were not. The dosage of NSAIDs taken by those who used these drugs was typically moderate (eg, between 400 and 1200 mg of ibuprofen daily). The survival curves plot the estimated probability of remaining free of disease as a function of age. The squares and triangles at the bottom of each riser in the step-plot indicate the appearance of one or more new cases among the unexposed and exposed groups, respectively. The method intrinsically adjusts for attrition in the sample as older ages are considered. This attrition results from death, prior onset of Alzheimer's disease, or the fact that living subjects have not yet reached the age in question. Cumulative survival estimates are obtained by chain multiplying the individual survival fractions (number surviving free of disease divided by number at risk) at the appearance of each new case through the age in question (Kaplan et al, J. Am. Stat. Assoc. 53:457 (1958)). The cumulative incidence before age 90 in the exposed group is 1 minus the survival at age 90 fraction of 0.77, or 0.23. The comparable figure for unexposed subjects is 0.98. The difference in lifetime risk in the two groups is highly significant (log rank x²=14.97, d.f.=1, p=0.0001). There is a difference of 11 years between the two groups in the age at which a cummulative incidence of 20% is realized. FIG. 1B. Effect with histamine H2 blocking drugs. Twenty-one members of sibships with high prevalence of Alzheimer's disease were exposed to histamine H2 receptor blockers for ≧1 month (circles); 135 were not (squares). The step-plot is generated as in FIG. 1A. There is a 10 year difference between the exposed and unexposed groups' ages at which cumulative incidence of 20% is realized. The difference in the two curves is highly significant (log rank x²=9.413, d.f.=1, p=0.0022).

FIG. 2. Alteration in proportion affected by Alzheimer's disease with exposure to NSAIDs, H2 blockers, or both. Crude proportions of subjects who developed Alzheimer's disease (with standard errors) are shown. Subjects exposed to NSAIDs were evaluated without consideration of exposure to H2 blockers, and vice versa. Reduced proportions of subjects with 1-12 months exposure to NSAIDs or H2 blockers were affected by Alzheimer's disease. With >1 yr. of exposure, the proportions affected were reduced further. Despite the use of relaxed criteria for exposure (≧1 month duration of treatment), no subject exposed to both types of drugs (not necessarily concurrently) was affected.

DETAILED DESCRIPTION OF THE INVENTION

The present invention relates, in one embodiment, to a method of retarding the earlier stages of the pathogenetic process, and thus preventing or delaying the onset of the prodromal or symptomatic phase, of Alzheimer's disease or related neurodegenerative disorders associated with excitotoxic neuronal cell death (for example, Huntington's disease, amyotrophic lateral sclerosis, epilepsy, Parkinson's disease, and Pick's disease). The method comprises administering to an individual at risk of developing the disease (or disorder) an amount of a nonsteroidal anti-inflammatory agent and/or a histamine H2 receptor blocking agent sufficient to effect the prevention or delay.

The agents used in the present method are sufficiently well tolerated that the method can be used in connection with individuals of low or unknown risk of developing Alzheimer's disease or related disorder. However, the method is preferred for use in connection with individuals at substantial or increased risk, relative to the general population. Individuals at substantial or increased risk include those having a family history of dementia, senility, or Alzheimer's, Parkinson's or Pick's disease. High risk individuals also include those having one or more ε4 alleles at the apolipoprotein E (APOE) locus and those lacking an ε2 allele at the APOE locus. (See also Hardy, Nature Genet. 4:233 (1992); Schellenberg et al, Science 24:1507 (1988) and Science 258:668 (1992); St. George-Hyslop et al, Nature Genet. 2:330 (1992); Van Broeckhoven et al, Nature Genet. 2:335 (1992); Pericak-Vance et al, Am. J. Hum. Genet. 48:1034 (1991); and Corder et al, Nature Genet. (1994)). It is believed that there are other genetic loci or biologic markers (eg the skin fibroblast assay) for increased risk of Alzheimer's disease. Individuals bearing these genetic variants or biological marker types that denote increased risk of Alzheimer's disease should be similarly suitable for intervention. Also at increased risk and suitable for intervention are individuals who suffer from mild memory loss and/or other cognitive symptoms. Depending on age and criteria for this category, it is believed that (without effective intervention) one third of this group will develop clinical Alzheimer's disease within three years, and at least half will develop Alzheimer's disease within seven years (Rubin et al, Arch. Neurol. 46:379 (1989)). Finally, even in the absence of other identified risk-markers, the elderly (for example, those over 75 years old) are at increased risk.

Nonsteroidal anti-inflammatory agents suitable for use in the present invention include the arylcarboxylic acids (salicylic acid, acetylsalicylic acid, diflunisal, choline magnesium trisalicylate, salicylate, benorylate, flufenamic acid, mefenamic acid, meclofenamic acid and triflumic acid), arylalkanoic acids (diclofenac, fenclofenac, alclofenac, fentiazac, ibuprofen, flurbiprofen, ketoprofen, naproxen, fenoprofen, fenbufen, suprofen, indoprofen, tiaprofenic acid, benoxaprofen, pirprofen, tolmetin, zomepirac, clopinac, indomethacin and sulindac) and enolic acids (phenylbutazone, oxyphenbutazone, azapropazone, feprazone, piroxicam, isoxicam and sudoxicam) described by McGeer (see U.S. Pat. No. 5,192,753); in addition to the arylalkanoic acids recited by McGeer, nabumetone, ketorolac and etodolac can also be used. These agents are potent inhibitors of cyclooxygenase (COX). Compounds preferred for use in the present invention include those demonstrating a specificity for inducible cyclooxygenase (COX-2) (Mitchell et al, Proc. Natl. Acad. Sci. USA 90:11693 (1994); Vane, Nature 367:215 (1994); Akarasereenont et al, Br. J. Pharmacol. (1994)), including naproxen and diclofenac (note also BF389 and BW755C; other compounds in development as inhibitors of COX-2 should also be suitable for use), and/or those having a long duration of action, including naproxen, sulindac, nabumetone, phenylbutazone, and piroxicam. Lipid soluble agents are also preferred.

Histamine H2 receptor blocking agents that are currently marketed and suitable for use in the present invention include cimetidine, ranitidine, famotidine and nizatidine, the more lipid soluble and/or longer acting compounds being preferred. Other compounds in development by the pharmaceutical industry as blockers of histamine H2 receptors should also be suitable.

The amount of nonsteroidal anti-inflammatory agent or histamine H2 receptor blocking agent to be administered and the regimen to be used will vary depending on the agent, or combination of agents, and the individual involved. By way of example, a nonsteroidal anti-inflammatory agent can be administered in a range of 10 mg to 3 g per 100 kg body weight daily or at least 4 times per week. Similarly, and by way of example, currently marketed histamine H2 receptor blocking agents can be administered in a range of 5 mg to 2 g per 100 kg body weight daily or at least 4 times per week. These agents are, advantageously, administered virtually continuously starting at an age of about 20 for individuals at high risk (e.g., genetically predisposed individuals) but starting at an age of about 30, 40 or 50, regardless of risk. Although the administration of a nonsteroidal anti-inflammatory agent alone or a histamine H2 receptor blocker alone is effective, it is preferred that both agents be administered, preferably, concurrently.

Histamine H2 receptor blocking agents can also be used to treat the symptoms (either mild, ie, prodromal, or fully apparent) of Alzheimer's disease, and related disorders, as well to delay the onset of the disease (or disorder). The administration of such agents to those with prodromal or fully apparent symptoms of Alzheimer's disease can prevent or ameliorate the further progression of the symptoms. When used for treating individuals showing prodromal or clinical symptoms, the H2 blocking agent is administered, for example, in a dose of 5 mg to 2 g per 100 kg body weight per day. The H2 blocking agents can be used alone or in combination with other agents suitable for use in preventing or treating Alzheimer's disease, for example, nonsteroidal anti-inflammatory agents.

Active agents suitable for use in the present method can be formulated as compositions. In addition to the agent, or, as appropriate, pharmaceutically acceptable salt thereof, the composition can comprise a pharmaceutically acceptable carrier. The composition can, depending on the agent, be in a form suitable for, for example, oral, intravenous or intramuscular administration.

While not limiting the invention to any particular mechanism of action, it is noted that both nonsteroidal anti-inflammatory agents and histamine H2 receptor blocking agents may inhibit the pathogenesitic process of Alzheimer's disease (or its latent or prodromal phases) via processes mediated by COX, including excitatory events in the n-methyl-d-aspartate (NMDA) pathway. The principal therapeutic action of nonsteroidal anti-inflammatory agents is suppression of COX (Vane, Nature 367:215 (1994)), and, in particular, the inducible isoform, COX-2, that is responsible. for promoting inflammation. COX-dependent events are also part of the calcium-dependent postsynaptic cascade that follows stimulation of glutamate receptors specific for NMDA (Lerea et al, Neuron 10:31 (1993)). COX-2 synthesis has been demonstrated in neurons (O'Banion et al, Annual Meeting Syllabus, Amer. Coll. of Neuropsychopharmacol., p. 58 1996). Under aberrant conditions (eg, excessive stimulation), the NMDA pathway can induce excitotoxic cell death (Choi, Neuron 1:623 (1988)). Both the oxidation of arachidonic acid to prostaglandins (which requires COX) (Lerea et al, Neuron 10:31 (1993)) and the concomitant generation of superoxide anions appear to be involved in this excitotoxic process (Shearman et al, Proc. Natl. Acad. Sci. USA 11:1470 (1994)). In keeping with these findings, there is depletion of COX-2 in the brains of individuals who have died with Alzheimer's disease, and this depletion is specific to areas of the brain that are rich in NMDA receptor cells that are vulnerable to excitotoxic death. (O'Banion, ibid 1996). The NMDA response is potentiated by histaminergic activation of H2 receptors (Sunami et al, Methods Find. Exp. Clin. Pharmacol. 13:85 (1991)), and possibly H3 (Bekkers, Science 261:104 (1993)) receptors (the effect of H2 blockers on the latter in the central nervous system being presently unknown). The fact that both nonsteroidal anti-inflammatory agents and H2 blockers prevent or delay the onset of Alzheimer's disease may result from the involvement of COX and the NMDA pathway in development of the disease. That being the case, inhibition of Alzheimer's disease pathogenesis can be expected to be effected using compounds, other than those described above, that similarly impact on the NMDA pathway and thereby protect against neuronal cell death that may underlie the neurodegeneration of Alzheimer's disease and related disorders.

Non-limiting Examples I-III that follow describe, in some detail, the studies that resulted in the present invention. Briefly, doubly affected sib pairs with Alzheimer's disease onset ages that differed by at least 3 years were studied, as were disease-discordant siblings whose unaffected sib(s) had survived at least 3 years beyond the onset age of the affected sib. Premorbid exposures to steroids, NSAIDs and other treatments were assessed for 186 subjects (91% response rate) by focused retrospective interviews using appropriate blinding and multiple informants when possible. Survival analysis methods were used to compare age-adjusted risk of Alzheimer's disease among sibs who had been exposed or unexposed, before onset, to glucocorticoids, aspirin, non-aspirin NSAIDs, and histamine H2 receptor blockers. The estimated odds ratios (o.r.) with these exposures were 0.54, 0.35 (p=0.04), 0.23 (p=0.02), and 0.15 (p=0.002), respectively, indicating that each type of drug was more commonly used in unaffected or late-affected sibs. The odds ratios for steroids, aspirin and non-aspirin NSAIDs fell within the related confidence interval from the prior twin study (Breitner, Neurology 44:227 (1994)).

In this high risk sample, subjects not exposed to NSAIDs experienced a 98% cumulative incidence of Alzheimer's disease (s.e. 2%) by age 90, compared with 23% (s.e. lit) for those who had taken NSAIDs (p=0.0001). Unexposed subjects realized a 20% cumulative incidence by age 64, 11 years before exposed individuals. An inverse association between the prior use of histamine H2 blocking drugs and Alzheimer's disease was also found. The age-adjusted lifetime risk of disease among those exposed to histamine H2 blocking drugs was also significantly reduced (p=0.002). The effects with both NSAIDs or aspirin and H2 blockers increased with duration of exposure. The two effects appeared to be additive or complementary, such that no subject who had taken both NSAIDs and H2 blockers developed Alzheimer's disease. The inverse association of Alzheimer's disease with exposure to NSAIDs appeared to be stronger after age 70, and in subjects without an ε4 allele at the polymorphic genetic locus for APOE. The inverse association with H2 blockers showed no strong interaction with age but was stronger in subjects whose genotype included at least one ε4 allele at APOE.

EXAMPLES

The following methodology is relevant to the Examples I-III that follow.

Doubly affected sib pairs with Alzheimer's disease onset ages that differed by at least 3 years were studied, as were disease-discordant siblings whose unaffected sib(s) had survived at least 3 years beyond the onset age of the affected sib. Diagnoses and ages at onset of Alzheimer's disease were established by consideration of all relevant data, including extensive longitudinal observation, laboratory testing, and autopsy confirmation when available. Arthritis, peptic ulcer disease, and other non-neurological conditions were not considered when making these diagnoses. Subjects or their collateral informants received a letter, followed by a structured telephone interview, that investigated several common medical conditions (arthritis, diabetes, peptic ulcer disease) and treatments (glucocorticoids, nonsteroidal anti-inflammatories, including aspirin, acetaminophen, narcotic analgesics, insulin and oral hypoglycemic drugs, and histamine H2 blocking agents). The interview also sought timing and duration of exposure. The interviewers generally knew which subjects had Alzheimer's disease but were blinded to early- or late-affected status. The respondents were not made aware of the hypothesis under investigation. Collateral informants supplied data for the 107 subjects who had developed Alzheimer's disease. Collateral information was also sought for the remaining subjects; however, it is was necessary to rely on autobiographical data from 20 (26%).

Example I

Delay or Prevention of Onset of Alzheimer's Disease with Nonsteroidal Anti-inflammatory Agents

Like dizygous twins, siblings share 50% of their genetic make-up on average. The relation of Alzheimer's disease onset and prior use of anti-inflammatory drugs was therefore studied in a sample of 186 sibs from 45 pedigrees ascertained for genetic linkage studies of late onset Alzheimer's disease (Pericak-Vance et al, Am. J. Hum. Genet. 48:1034 (1991)). The selected sibs were members of onset-discordant doubly affected pairs or disease-discordant pairs meeting criteria described above. Characteristics of the sample are displayed in Table 1.

TABLE 1 Characteristics of affected and unaffected sibs no. censoring age Status number deceased or onset* Affected 107 63 69.1 (9.4 yrs.) Unaffected  79 13 74.0 (9.5 yrs.) Totals 186 76 71.2 (9.8 yrs.) *mean (s.d.); Censoring age is age at death, or current age if living.

FIG. 1A. shows Kaplan-Meier survival curves (Kaplan et al, J. Am. Stat. Assoc. 53:457-481 (1958)) for the subjects categorized by prior exposure to NSAIDs. Because of the possibility of disproportionate reporting of exposures in autobiographical information, only the results from the subjects with collateral informants are presented. Similar results were seen when autobiographical data were included. The horizontal line at 20% cumulative incidence of Alzheimer's disease (as a typical example) is intersected 11 years later in exposed subjects. The lifetime age-adjusted risk of Alzheimer's disease in the exposed group is substantially lower (log rank X²=14.97, d.f.=1, p=0.0001).

These differences and the association of Alzheimer's disease with the remaining exposures were investigated using Cox proportional hazards models (Cox, J. Roy. Stat. Soc. (Series B) 34:248-275 (1972)) in which the sample was first stratified by sibship. Table 2 reports odds ratios (o.r), the customary measure of risk associated with an exposure in case-control work. The o.r. is ordinarily calculated as the ratio of proportions exposed versus unexposed in the affected and unaffected groups; for conditions like Alzheimer's disease with age-dependent expression (Breitner et al, Am. J. Epidemiol. 128:536-548 (1988)), the o.r. is preferably calculated using proportional hazards or similar models which consider subjects' current age or age at death (i.e., censoring age), or age at onset of Alzheimer's disease. An o.r. of less than 1 implies reduced risk of disease with exposure. For example, the o.r. of 0.23 with NSAIDs indicates that NSAID users experienced slightly less than ¼ the age-adjusted risk of non-users. The apparent effect of both aspirin and NSAIDs increased with duration of exposure; the o.r. with use of NSAIDs for >1 yr. (median duration of exposure 5 yrs, mean 9.18, s.d. 8.78 yrs) was 0.075 (p=0.0001), indicating that long term users of these drugs had less than one-tenth the risk of non-users for developing Alzheimer's disease.

TABLE 2 Odds ratios for age-adjusted risk of Alzheimer's disease with exposures to several anti-inflammatory or analgesic drugs Source Proportion Odds ratio Exposure of data* exposed (95% c.i.) p value⁺ Glucocorticoids COL only  6/130 0.542 0.4405 (0.114-2.570) Glucocorticoids COL + AU  9/151 0.569 0.4703 (0.123-2.633) NSAIDs COL only 20/131 0.228 0.0175 (0.068-0.722) NSAIDs COL + AU 25/151 0.192 0.0071 (0.058-0.639) NSAIDs (women) COL + AU 17/96  0.181 0.0040 (0.056-0.580) NSAIDs (men) COL + AU 8/55 0.415 0.2320 (0.098-1.757) NSAIDs COL + AU  4/129 0.188 0.1450 (exposed 1-12 mo.) (0.024-1.491) NSAIDs COL + AU 17/142 0.075 0.0001 (exposed >1 yr.) (0.022-0.261) NSAIDs COL + AU 7/56 0.583 0.3708 (censoring (0.179-1.899) age ≦70) NSAIDs COL + AU 18/76 0.215 0.0366 (censoring age >70) (0.051-0.909) NSAIDs COL + AU 14/48 0.139 0.0566 (no APOE ε4 allele) (0.018-1.057) (≧1 ε4 allele) COL + AU 11/84 0.556 0.2611 (0.200-1.547) NSAIDs COL + AU 25/124 0.254 0.0295 (Alzheimer's (0.074-0.872) disease since 1980 only) NSAIDs COL only 5/58 0.272 0.2381 (affected subjects (0.031-2.367) only) Aspirin COL only 31/136 0.349 0.0368 (0.130-0.938) Aspirin COL + AU 40/157 0.343 0.0199 (0.139-0.844) Aspirin COL + AU  4/121 0.625 0.6410 (exposed 1-12 mo.) (0.086-4.558) Aspirin COL + AU 35/152 0.369 0.0123 (exposed >1 yr.) (0.171-0.796) Acetaminophen COL only 10/131 0.157 0.0770 (0.020-1.222) Acetaminophen COL + AU 17/152 0.104 0.0283 (0.014-0.787) Narcotics COL only  1/134 0.876 0.9129 (0.082-9.396) Narcotics COL + AU  1/134 0.876 0.9129 (0.082-9.396) *AU = autobiographical; COL = collateral informant(s); ⁺probability of observed data under null hypothesis (o.r. = 1.0: from Cox proportional hazards models. The criterion for regular exposure to NSAIDs, aspirin, and other oral medications was ingestion on 4 or more days a week for at least one month continuously, at any time up to one year prior to onset of Alzheimer's disease. Exposure to glucocorticoids meant regular use of oral agents for at least a month, or multiple doses of injectable depot agents (e.g., hydrocortisone, betamethasone or triamcinolone acetate suspensions, triamcinolone acetonide suspension). # The table reports results with data from collateral informants and also, for comparison, results with addition of autobiographical data from unaffected subjects lackinq collaterals. To improve statistical power, the latter method was also used for stratified analyses of main effects or for analyses of interactions. Genotype at APOE was determined using the polymerase chain reaction and restriction fragmentation isotyping, as previously described (Saunders et al, # Neurology 43: 1467-1472 (1993)). The sample was stratified by sibship, except for male vs. female, young vs. old, and APOE genotype comparisons. Owing to small numbers available, simple odds ratios instead of those derived from proportional hazards models are given for dose-response effects with NSAIDs and aspirin. The variable numbers in the denominators for proportion exposed reflect results of stratification or of variable numbers of subjects with missing data.

Example II

Studies of Specificity: Additional Effect with Histamine H2 Blockers

The specificity of the effect with NSAIDs was examined by assessing the interrelation of Alzheimer's disease, NSAIDs and the other medical conditions or treatments ascertained at the same interview (Table 3). Because of the likelihood that subjects using non-aspirin NSAIDs would also have used aspirin, an orthogonal comparison was set up of the effect of aspirin only, as contrasted with effect of NSAIDs but no aspirin, with the use of both, or of neither. Aspirin alone appeared to produce a weak but similar effect to NSAIDs. Acetaminophen (paracetamol) was taken in higher doses than aspirin, which was used mostly in low dose for prevention of heart disease. Acetaminophen alone, which has only a weak anti-inflammatory action (Mitchell et al, Proc. Natl. Acad. Sci. USA 90:11693-11697 (1993)), showed a comparable but statistically inconclusive effect.

TABLE 3 Odds ratios for age-adjusted risk of Alzheimer's disease with NSAIDs with several other variables and effects with Histamine H2 receptor blockers* Proportion Odds ratio Exposure or condition exposed* (95% c.i.) p value⁺ Aspirin, no NSAIDs 22/123 0.508 0.0465 (0.260-0.990) NSAIDs, no aspirin 13/115 0.221 0.0110 (0.069-0.707) Aspirin and NSAIDs  8/109 0.143 0.0535 (0.020-1.030) Acetaminophen,  7/125 0.192 0.1014 no NSAIDs (0.027-1.383) NSAIDs, no acetaminophen 14/132 0.173 0.0031 (0.054-0.552) Acetaminophen and  7/125 0.252 0.1712 NSAIDs (0.035-1.816) Arthritis (all) 62/168 0.454 0.0139 (0.242-0.852) Arthritis, no NSAIDs 28/123 0.758 0.3517 (0.423-1.358) NSAIDs, no arthritis  4/99 0    na (model indeterminate) Arthritis and NSAIDs 20/116 0.281 0.0065 (0.113-0.701) Adult onset diabetes (all) 17/185 0.505 0.1422 (0.203-1.257) Use of insulin, oral 14/185 0.526 0.2135 hypoglycemics (0.191-1.447) Diabetes, 15/142 0.695 0.3319 no glucocorticoids (0.334-1.448) Glucocorticoids,  9/136 0.434 0.2448 no diabetes (0.106-1.772) Diabetes and  0/127 0    na glucocorticoids (model indeterminate) History of peptic ulcer 26/184 0.667 0.3278 disease (all) (0.296-1.501) Peptic ulcer disease, 16/124 0.566 0.2190 no NSAIDs (0.228-1.403) NSAIDs, no peptic ulcer 22/130 0.178 0.0008 disease (0.065-0.489) Peptic ulcer disease and  4/112 0.534 0.5344 NSAIDs (0.074-3.858) Histamine H2 blockers (all) 29/180 0.149 0.0021 (0.044-0.501) Peptic ulcer disease,  9/149 1.656 0.3760 no H2 blockers (0.542-5.063) H2 blockers, no peptic 15/155 0.224 0.0460 ulcer disease (0.052-0.974) H2 blockers and peptic 14/154 0.090 0.0217 ulcer disease (0.011-0.703) Histamine H2 blockers, 18/124 0.242 0.0161 no NSAIDs (0.076-0.768) NSAIDs, no histamine 19/125 0.261 0.0038 H2 blockers (0.105-0.648) Histamine H2 blockers  7/113 0    na and NSAIDs (model indeterminate) Histamine H2 blockers 16/114 0.168 0.0129 (women) (0.041-0.685) Histamine H2 blockers 13/66  0.255 0.0620 (men) (0.061-1.071) Histamine H2 blockers 11/162 0.203 0.0209 (exposed 1-12 mo.) (0.057-0.716) Histamine H2 blockers 10/161 0.060 0.0009 (exposed >1 yr.) (0.012-0.298) Histamine H2 blockers 11/64  0.180 0.0177 (censoring age ≦70) (0.043-0.743) Histamine H2 blockers 18/93  0.254 0.0604 (censoring age >70) (0.061-1.062) Histamine H2 blockers 14/61  0.411 0.2360 (no APOE ε4 allele) (0.094-1.788) Histamine H2 blockers 15/96  0.195 0.0231 (≧1 ε4 allele) (0.048-0.799) Histamine H2 blockers 29/150 0.294 0.0643 (Alzheimer's disease (0.080-1.075) since 1980 only) Histamine H2 blockers 4/72 0.758 0.7637 (affected subjects only) (0.125-4.606) *collateral data where available, otherwise autobiographical data , ⁺as in Table 2, except orthogonal comparisons not stratified by sibship.

Likewise, the question of whether the effects with NSAIDs reflected their association with underlying medical conditions, rather than the drugs themselves, was addressed. Among the three common ailments, only a past history of arthritis was significantly associated with reduced risk of Alzheimer's disease. The latter association was vitiated, however, in orthogonal analyses of arthritis without use of NSAIDs. There was no significant association of Alzheimer's disease risk with diabetes or its treatments, despite the availability of adequate power to detect such associations (proportion treated 15/164).

Similarly, there was no significant association of Alzheimer's disease and peptic ulcer disease, but an unexpected finding was strong reduction in risk among those with prior use of histamine H2 receptor blocking drugs commonly prescribed for this condition (proportion exposed 29/180, see FIG. 1B.). As with aspirin and NSAIDs, the effect with H2 blockers showed an increase in strength with duration of treatment (median in those with >1 yr. of exposure 5 yrs., mean 7.60, s.d. 7.21 yrs.). Because H2 blockers are sometimes used to reduce gastric irritation from NSAIDs, an orthogonal analysis of H2 blockers and NSAIDs was conducted. The effect with H2 blockers was not explained by use of NSAIDs, and the effects on Alzheimer's disease risk with the two treatments supplemented each other.

FIG. 2 demonstrates a progressive reduction in proportion affected by Alzheimer's disease as subjects reported increasing exposure to both NSAIDs and H2 blockers. The corresponding odds ratios are given in Tables 2 and 3 above. No cases of Alzheimer's disease occurred among the seven individuals who had taken both types of drug for a month or more (compared with disease occurrence in unexposed subjects, Fisher's exact p=0.003).

Example III

Further Analyses: Stratification by Age, Sex, and Genotype at APOE

The question was addressed as to whether individuals with Alzheimer's disease onset before 1980, unlike their later-affected or unaffected sibs, might necessarily have had little exposure to NSAIDs or H2 blockers, since these drugs have been widely prescribed only for the past 15-20 years. One analysis therefore disregarded Alzheimer's disease with onset prior to 1980, but found similar results (see Tables 2 and 3 above).

Analyses of affected individuals only, which avoids the possibility that unaffected comparands bore no predisposition to disease, yielded o.r.'s congruent with the notion that NSAIDs or H2 blockers delay onset of Alzheimer's disease in those predisposed to disease (Tables 2 and 3 above). The displacement of these o.r.'s toward the null value of 1.0 probably reflects truncation in selection of the subjects (ignoring those with greatest delay of onset resulting in their death before disease expression). These analyses, as well as that of Alzheimer's disease with glucocorticoids, were statistically inconclusive, presumably because of limited numbers of subjects exposed (e.g., only 3 members of doubly affected pairs had been exposed to NSAIDs).

Trends were observed suggesting that the effect with NSAIDs is stronger in subjects with onset or censoring after age 70 (interaction p=0.22), and in those who lack an ε4 allele at APOE (interaction p=0.13). The modest difference between male and female subjects likely reflects the greater proportion of females at later ages (thus clarifying the confounded effects of age and sex in the previous twin sample, which included mostly older females and younger males). No differences were apparent in the effect with H2 blockers among contrasting strata of age or sex, but there was a moderate trend toward increasing effect among those with at least one ε4 allele. Larger numbers of subjects are required to test further the phenomenon of opposite directionality of drug˜APOE interaction with H2 blockers and NSAIDs.

Example IV

Administration of H2 Blockers Inhibits Progression of Clinical Alzheimer's Disease Symptoms

A large population study was conducted that screened the entire elderly population (over 5,000 individuals) of a single county in northern Utah. The study identified over 400 individuals with suspected dementia (8%). These individuals, as well as a substantial number of matched controls, were carefully evaluated with neurologic and neuropsychologic assessment, after which 375 individuals were judged to have substantial cognitive impairment in several domains of intellectual function (i.e., dementia). A careful inventory was taken of these subjects' sustained prior use (at least 4 doses per week for a month or more) of many different medicines, as well as their current use of these same medicines. NSAIDs and H2 blockers were included among the drug categories inventoried. A panel of five geropsychiatrists and neuropsychologists who were unaware of the subjects drug exposure histories then reviewed all available data from the assessment of these cognitively impaired subjects. They assigned a provisional diagnosis of the cause(s) of their impairment. Prominent among these causes, Alzheimer's disease was diagnosed in 225 demented individuals (70% of all cases). The diagnosis of Alzheimer's disease conformed to the current custom of requiring a clear history of progression of symptoms over several years (usually in a characteristic pattern of deficits).

Two findings emerged after the process of the diagnostic review. First, one individual with APOE genotype ε4/ε3 had a clinical course wherein the progression of symptoms was suddenly halted or dramatically slowed concurrent with regular use of H2 blockers. In another individual with the same vulnerable genotype, onset of Alzheimer's disease symptoms ensued abruptly upon cessation of long term usage of H2 blockers. Second, in only two instances (<1%) were subjects diagnosed with Alzheimer's disease found to be using H2 blocking drugs at the time of their assessment. (In one of these instances, the subject had the strongly predisposing genotype APOE ε4/ε4, and his disease was in far advanced stages when treatment was initiated with famotidine. It is quite likely that any amelioration of symptom progression would have been effectively undetectable at this state of the disease.) This contrasts with more than 10 instances (8%) of other (much rarer) forms of dementia in which H2 blockers were currently in use. Indeed, the prevalence of H2 blocker use among non-Alzheimer's disease dementias was similar to the prevalence of their current use in the population of reference (about 10%). Since the diagnosis of Alzheimer's disease depended upon the progressivity of dementia symptoms, the paucity of cases currently using H2 blockers indicates the inhibition of symptom progression by these drugs (hence deterring the diagnosis of Alzheimer's disease in favor of other categories, including “subsyndromal cognitive impairment” or “dementia of undetermined etiology”).

Example V

In the foregoing study, non-demented subjects who reported substantial prior use of H2 blockers or NSAIDs can be compared in two ways with other subjects who did not report similar use of these agents. In the first comparison, the cognitive screening scores of the various groups can be contrasted after adjustment for age, gender, genotype, and the effect of physical ailments such as diabetes mellitus, coronary artery disease or pulmonary insufficiency (all of which may impair cognition). In the second comparison, these same self-reported treatment groups can receive a second cognitive screen 18 months after the first. The degree of cognitive decline over 18 months can then be examined as a function of prior or current use of NSAID's and/or H2 blockers. Analyses in both comparisons are expected to indicate that the progression of mild cognitive dysfunction in old age (a substantial proportion of which represents prodromal or early clinical symptoms of Alzheimer's disease) can be attenuated or prevented by the use of NSAID and/or H2 blockers. * * *

All documents cited above are hereby incorporated in their entirety by reference.

One skilled in the art will appreciate from a reading of this disclosure that various changes in form and detail can be made without departing from the true scope of the invention. 

1. A method of preventing or delaying the onset of the clinical symptoms of Alzheimer's disease or related neurodegenerative disorder comprising: i) identifying an individual at risk of developing said disease or disorder; ii) administering to said individual an amount of a nonsteroidal anti-inflammatory agent sufficient to effect said prevention or delay; and iii) monitoring said individual for the development of clinical symptoms of said disease or disorder.
 2. The method according to claim 1 wherein said individual is genetically predisposed to said disease or disorder.
 3. The method according to claim 1 wherein said individual has a family history of Alzheimer's disease, Parkinson's disease, Pick's disease, Huntington's disease, amyotrophic lateral sclerosis, dementia or senility.
 4. The method according to claim 1 wherein said individual has at least one ε4 allele at the genetic locus for apolipoprotein E or lacks an ε2 allele at the genetic locus for apolipoprotein E.
 5. The method according to claim 1 wherein said individual bears a biological marker type that denotes increased risk of Alzheimer's disease.
 6. The method according to claim 1 wherein said individual has a mild disorder of memory or cognition.
 7. The method according to claim 1 wherein said individual is over about 60 years old and free of clinical symptoms of Alzheimer's disease or related neurodegenerative disorder.
 8. The method according to claim 1 wherein anti-inflammatory agent is administered to said individual from an age of 20 or older and prior to onset of clinical symptoms of said disease or disorder.
 9. The method according to claim 1 wherein said anti-inflammatory agent is specific for inhibition of inducible cyclooxygenase (COX2).
 10. The method according to claim 8 wherein said anti-inflammatory agent is administered to said individual from an age of 40 or older and prior to onset of clinical symptoms of said disease or disorder.
 11. A method of preventing or delaying the onset of Alzheimer's disease or related neurodegenerative disorder comprising: i) identifying an individual at risk of developing said disease or disorder; ii) administering to said individual an amount of a histamine H2 receptor blocking agent sufficient to effect said prevention or delay; and iii) monitoring said individual for the development of clinical symptoms of said disease or disorder.
 12. The method according to claim 11 wherein said individual is genetically predisposed to said disease or disorder.
 13. The method according to claim 11 wherein said individual has a family history of Alzheimer's disease, Parkinson's disease, Pick's disease, Huntington's disease, amyotrophic lateral sclerosis, dementia or senility.
 14. The method according to claim 11 wherein said individual has at least one ε4 allele at the genetic locus for apolipoprotein E or lacks an ε2 allele at the genetic locus for apolipoprotein E.
 15. The method according to claim 11 wherein said individual bears a biological marker type that denotes increased risk of Alzheimer's disease.
 16. The method according to claim 11 wherein said individual has a mild disorder of memory or cognition.
 17. The method according to claim 11 wherein said individual is about 60 years old or older and free of clinical symptoms of Alzheimer's disease or related neurodegenerative disorder.
 18. The method according to claim 11 wherein H2 blocking agent is administered to said individual from an age of 20 or older and prior to onset of clinical symptoms of said disease or disorder.
 19. The method according to claim 18 wherein said H2 blocking agent is administered to said individual from an age of 40 or older and prior to onset of clinical symptoms of said disease or disorder.
 20. A method of preventing or delaying the onset of Alzheimer's disease or related neurodegenerative disorder comprising: i) identifying an individual at risk of developing said disease or disorder; ii) administering to said individual an amount of a nonsteriodal anti-inflammatory agent and a histamine H2 receptor blocking agent sufficient to effect said prevention or delay; and iii) monitoring said individual for the development of clinical symptoms of said disease or disorder.
 21. The method according to claim 20 wherein said anti-inflammatory agent and said H2 blocking agent are administered concurrently.
 22. The method according to claim 20 wherein said anti-inflammatory agent is specific for inhibition of COX2.
 23. A method of preventing or delaying the onset of Alzheimer's disease or related neurodegenerative disorder comprising: i) identifying an individual at risk of developing said disease or disorder; ii) administering to said individual an amount of an agent that inhibits excitotoxic neuronal cell death sufficient to effect said prevention or delay; and iii) monitoring said individual for the development of clinical symptoms of said disease or disorder.
 24. The method according to claim 22 wherein said H2 blocking agent and anti-inflammatory agent are administered concurrently. 